#!/bin/sh
# Copyright (C) 2004 University of Oxford
#
# SHCOPYRIGHT
export LD_LIBRARY_PATH=${LD_LIBRARY_PATH}:${FSLDIR}/lib
Usage() {
echo ""
echo "Usage: bedpostx <subject directory> [options]"
echo ""
echo "expects to find bvals and bvecs in subject directory"
echo "expects to find data and nodif_brain_mask in subject directory"
echo "expects to find grad_dev in subject directory, if -g is set"
echo ""
echo "<options>:"
echo "-NJOBS (number of jobs to queue, the data is divided in NJOBS parts, usefull for a GPU cluster, default 1)"
echo "-Q (name of the GPU(s) queue, default cuda.q)"
echo "-n (number of fibres per voxel, default 2)"
echo "-w (ARD weight, more weight means less secondary fibres per voxel, default 1)"
echo "-b (burnin period, default 1000)"
echo "-j (number of jumps, default 1250)"
echo "-s (sample every, default 25)"
echo "-model (1 for monoexponential, 2 for multiexponential, default 1)"
echo "-g (consider gradient nonlinearities, default off)"
echo ""
echo ""
echo "ALTERNATIVELY: you can pass on xfibres options onto directly bedpostx"
echo " For example: bedpostx <subject directory> --noard --cnonlinear"
echo " Type 'xfibres --help' for a list of available options "
echo " Default options will be bedpostx default (see above), and not xfibres default."
echo ""
echo "Note: Use EITHER old OR new syntax."
exit 1
}
make_absolute(){
dir=$1;
if [ -d ${dir} ]; then
OLDWD=`pwd`
cd ${dir}
dir_all=`pwd`
cd $OLDWD
else
dir_all=${dir}
fi
echo ${dir_all}
}
[ "$1" = "" ] && Usage
subjdir=`make_absolute $1`
subjdir=`echo $subjdir | sed 's/\/$/$/g'`
echo subjectdir is $subjdir
#parse option arguments
queue="-q $FSLGECUDAQ"
njobs=1
nfibres=2
fudge=1
burnin=1000
njumps=1250
sampleevery=25
model=1
gflag=0
if [ "x$SGE_ROOT" = "x" ]; then
queue=''
fi
shift
while [ ! -z "$1" ]
do
case "$1" in
-Q) queue=-q $2;shift;;
-NJOBS) njobs=$2;shift;;
-n) nfibres=$2;shift;;
-w) fudge=$2;shift;;
-b) burnin=$2;shift;;
-j) njumps=$2;shift;;
-s) sampleevery=$2;shift;;
-model) model=$2;shift;;
-g) gflag=1;;
*) break;;
esac
shift
done
opts="--nf=$nfibres --fudge=$fudge --bi=$burnin --nj=$njumps --se=$sampleevery --model=$model"
defopts="--cnonlinear"
opts="$opts $defopts $*"
#check that all required files exist
if [ ! -d $subjdir ]; then
echo "subject directory $1 not found"
exit 1
fi
if [ ! -e ${subjdir}/bvecs ]; then
echo "${subjdir}/bvecs not found"
exit 1
fi
if [ ! -e ${subjdir}/bvals ]; then
echo "${subjdir}/bvals not found"
exit 1
fi
if [ `${FSLDIR}/bin/imtest ${subjdir}/data` -eq 0 ]; then
echo "${subjdir}/data not found"
exit 1
fi
if [ ${gflag} -eq 1 ]; then
if [ `${FSLDIR}/bin/imtest ${subjdir}/grad_dev` -eq 0 ]; then
echo "${subjdir}/grad_dev not found"
exit 1
fi
fi
if [ `${FSLDIR}/bin/imtest ${subjdir}/nodif_brain_mask` -eq 0 ]; then
echo "${subjdir}/nodif_brain_mask not found"
exit 1
fi
echo Making bedpostx directory structure
mkdir -p ${subjdir}.bedpostX/
mkdir -p ${subjdir}.bedpostX/diff_parts
mkdir -p ${subjdir}.bedpostX/logs
mkdir -p ${subjdir}.bedpostX/logs/logs_gpu
mkdir -p ${subjdir}.bedpostX/logs/pid_${$}
mkdir -p ${subjdir}.bedpostX/xfms
mailto=`whoami`@fmrib.ox.ac.uk
echo Copying files to bedpost directory
cp ${subjdir}/bvecs ${subjdir}/bvals ${subjdir}.bedpostX
${FSLDIR}/bin/imcp ${subjdir}/nodif_brain_mask ${subjdir}.bedpostX
if [ `${FSLDIR}/bin/imtest ${subjdir}/nodif` = 1 ] ; then
${FSLDIR}/bin/fslmaths ${subjdir}/nodif -mas ${subjdir}/nodif_brain_mask ${subjdir}.bedpostX/nodif_brain
fi
nvox=`${FSLDIR}/bin/fslstats $subjdir.bedpostX/nodif_brain_mask -V | cut -d ' ' -f1 `
echo Queuing parallel processing stage
[ -f ${subjdir}.bedpostX/commands.txt ] && rm ${subjdir}.bedpostX/commands.txt
if [ "x$SGE_ROOT" = "x" ]; then
#
# Need to set off a backgrounded monitoring task
#
cat <<EOM > ${subjdir}.bedpostX/monitor
#!/bin/sh
finished=0
logdir=${subjdir}.bedpostX/logs
#voxels processed in each subpart are 12800 or more if the last one is less than 6400 (1 part less)
nsubparts=\$(($nvox/12800))
if [ \$nsubparts%12800 != 0 ];then
nsubparts=\$((\$nsubparts + 1))
fi
last_part=\$(($nvox-(((\$nsubparts-1))*12800)))
if [ \$last_part -lt 6400 ];then
nsubparts=\$((\$nsubparts - 1))
fi
check() {
if [ \$finished -eq 1 ];then
echo "\$nfin parts processed of "$nsubparts
else
nfin=0
subpart=0
while [ "\$subpart" -le \$nsubparts ];do
partzp=\`\$FSLDIR/bin/zeropad \$part 4\`
if [ -f ${subjdir}.bedpostX/diff_parts/data_part_0000/mean_S0samples_\$subpart ];then
nfin=\$((\$nfin + 1))
fi
subpart=\$((\$subpart + 1))
done
if [ \$nfin -eq \$nsubparts ] ; then
finished=1
fi
echo "\$nfin parts processed of "\$nsubparts
fi
}
exit_test() {
isimg=\`\$FSLDIR/bin/imtest ${subjdir}.bedpostX/dyads1\`
if [ \$isimg -eq 0 ] ; then
echo For some reason the bedpostX process DOES NOT appear
echo to have successfully completed. Please examine your
echo results carefully.
else
echo All parts processed
fi
}
check
n=0
while [ \$finished -eq 0 ] ; do
sleep 10
if [ \$n -eq 6 ] ; then
check
n=0
else
n=\$((\$n + 1))
fi
done
exit_test
EOM
chmod +x ${subjdir}.bedpostX/monitor
${subjdir}.bedpostX/monitor&
monitorpid=$!
fi
part=0
while [ $part -lt $njobs ]
do
partzp=`$FSLDIR/bin/zeropad $part 4`
if [ ${gflag} -eq 1 ]; then
gopts="$opts --gradnonlin=${subjdir}/grad_dev"
else
gopts=$opts
fi
echo "${FSLDIR}/bin/xfibres_gpu --data=${subjdir}/data --mask=$subjdir.bedpostX/nodif_brain_mask -b ${subjdir}.bedpostX/bvals -r ${subjdir}.bedpostX/bvecs --forcedir --logdir=$subjdir.bedpostX/diff_parts/data_part_$partzp $gopts ${subjdir} $part $njobs > $subjdir.bedpostX/logs/log$partzp && echo Done" >> ${subjdir}.bedpostX/commands.txt
part=$(($part + 1))
done
bedpostid=`${FSLDIR}/bin/fsl_sub $queue -l ${subjdir}.bedpostX/logs -M $mailto -N bedpostx_gpu -t ${subjdir}.bedpostX/commands.txt`
echo Queuing post processing stage
mergeid=`${FSLDIR}/bin/fsl_sub $queue -j $bedpostid -m ase -N bpx_postproc -l ${subjdir}.bedpostX/logs ${FSLDIR}/bin/bedpostx_postproc_gpu.sh --data=${subjdir}/data --mask=$subjdir.bedpostX/nodif_brain_mask -b ${subjdir}.bedpostX/bvals -r ${subjdir}.bedpostX/bvecs --forcedir --logdir=$subjdir.bedpostX/diff_parts $gopts $nvox $njobs ${subjdir}`
[ "x$SGE_ROOT" = "x" ] && kill -USR1 $monitorpid
if [ "x$SGE_ROOT" != "x" ]; then
echo
echo Type ${subjdir}.bedpostX/monitor to show progress.
cat <<EOM > ${subjdir}.bedpostX/monitor
#!/bin/sh
finished=0
logdir=${subjdir}.bedpostX/logs
if [ $njobs -eq 1 ]; then
nsubparts=\$(($nvox/12800))
if [ \$nsubparts%12800 != 0 ];then
nsubparts=\$((\$nsubparts + 1))
fi
last_part=\$(($nvox-(((\$nsubparts-1))*12800)))
if [ \$last_part -lt 6400 ];then
nsubparts=\$((\$nsubparts - 1))
fi
while [ \$finished -eq 0 ] ; do
nfin=0
subpart=0
while [ "\$subpart" -le \$nsubparts ];do
partzp=\`\$FSLDIR/bin/zeropad \$part 4\`
if [ -f ${subjdir}.bedpostX/diff_parts/data_part_0000/mean_S0samples_\$subpart ];then
nfin=\$((\$nfin + 1))
fi
subpart=\$((\$subpart + 1))
done
echo "\$nfin parts processed of "\$nsubparts
if [ -f ${subjdir}.bedpostX/xfms/eye.mat ] ; then
finished=1
echo "All parts processed"
fi
sleep 60;
done
else
while [ \$finished -eq 0 ] ; do
nfin=0
part=0
while [ "\$part" -le $njobs ];do
partzp=\`\$FSLDIR/bin/zeropad \$part 4\`
if [ -f ${subjdir}.bedpostX/diff_parts/data_part_\$partzp/mean_S0samplesJ ];then
nfin=\$((\$nfin + 1))
fi
part=\$((\$part + 1))
done
echo "\$nfin parts processed of "$njobs
if [ -f ${subjdir}.bedpostX/xfms/eye.mat ] ; then
finished=1
echo "All parts processed"
fi
sleep 60;
done
fi
EOM
chmod +x ${subjdir}.bedpostX/monitor
echo Type ${subjdir}.bedpostX/cancel to terminate all the queued tasks.
cat <<EOC > ${subjdir}.bedpostX/cancel
#!/bin/sh
qdel $mergeid $bedpostid
EOC
chmod +x ${subjdir}.bedpostX/cancel
echo
echo You will get an email at the end of the post-processing stage.
echo
fi